{ "config": { "abort": { "already_configured": "[%key:common::config_flow::abort::already_configured_device%]", "invalid_host": "[%key:common::config_flow::error::invalid_host%]", "reconfigure_successful": "[%key:common::config_flow::abort::reconfigure_successful%]", "unique_id_mismatch": "The identifier does not match the previous identifier" }, "error": { "cannot_connect": "[%key:common::config_flow::error::cannot_connect%]", "unknown": "[%key:common::config_flow::error::unknown%]" }, "flow_title": "{device}", "step": { "confirm_discovery": { "description": "Do you want to add {device} to Home Assistant?" }, "reconfigure": { "data": { "host": "[%key:common::config_flow::data::host%]" }, "data_description": { "host": "[%key:component::fronius::config::step::user::data_description::host%]" }, "description": "Update your configuration information for {device}." }, "user": { "data": { "host": "[%key:common::config_flow::data::host%]" }, "data_description": { "host": "The IP address or hostname of your Fronius device." }, "description": "Configure your Fronius SolarAPI device." } } }, "entity": { "sensor": { "capacity_designed": { "name": "Designed capacity" }, "capacity_maximum": { "name": "Maximum capacity" }, "cash_factor": { "name": "Grid export tariff" }, "co2_factor": { "name": "CO₂ factor" }, "current_ac": { "name": "AC current" }, "current_ac_phase_1": { "name": "Current phase 1" }, "current_ac_phase_2": { "name": "Current phase 2" }, "current_ac_phase_3": { "name": "Current phase 3" }, "current_dc": { "name": "DC current" }, "current_dc_mppt_no": { "name": "DC current {mppt_no}" }, "delivery_factor": { "name": "Grid import tariff" }, "energy_day": { "name": "Energy day" }, "energy_reactive_ac_consumed": { "name": "Reactive energy consumed" }, "energy_reactive_ac_produced": { "name": "Reactive energy produced" }, "energy_real_ac_consumed": { "name": "Energy consumed" }, "energy_real_ac_minus": { "name": "Real energy minus" }, "energy_real_ac_plus": { "name": "Real energy plus" }, "energy_real_consumed": { "name": "Real energy consumed" }, "energy_real_produced": { "name": "Real energy produced" }, "energy_total": { "name": "Total energy" }, "energy_year": { "name": "Energy year" }, "error_code": { "name": "Error code" }, "error_message": { "name": "Error message", "state": { "ac_current_sensor_error": "AC current sensor error", "ac_frequency_too_high": "AC frequency too high", "ac_frequency_too_low": "AC frequency too low", "ac_grid_outside_permissible_limits": "AC grid outside the permissible limits", "ac_module_over_temperature": "AC module overtemperature", "ac_module_temperature_sensor_faulty_l1": "AC module temperature sensor faulty (L1)", "ac_module_temperature_sensor_faulty_l2": "AC module temperature sensor faulty (L2)", "ac_module_temperature_sensor_faulty_l3": "AC module temperature sensor faulty (L3)", "ac_voltage_too_high": "AC voltage too high", "ac_voltage_too_low": "AC voltage too low", "arc_detection_triggered": "Arc detection triggered", "arc_detector_switched_off": "Arc detector switched off (e.g. during external arc monitoring)", "can_bus_full": "CAN bus is full", "communication": "Communication error", "compatibility_error_invalid_power_stage_configuration": "Compatibility error (e.g. due to replacement of a PC board) - invalid power stage set configuration", "current_sensor_calibration_timeout": "Current sensor calibration timeout", "dc_component_measured_in_grid_too_high": "DC component measured in the grid too high", "dc_connection_inverter_battery_interrupted": "DC connection between inverter and battery interrupted", "dc_input_voltage_mppt_1_too_high": "DC input voltage MPPT 1 too high", "dc_input_voltage_mppt_2_too_high": "DC input voltage MPPT 2 too high", "dc_low_string_1": "DC low string 1", "dc_low_string_2": "DC low string 2", "dc_module_over_temperature": "DC module overtemperature", "dc_module_temperature_sensor_faulty": "DC module temperature sensor faulty", "derating_caused_by_over_frequency": "Derating caused by overfrequency", "different_power_limitation_in_hardware_modules": "Different power limitation in the hardware modules", "eeprom_reinitialised": "EEPROM has been re-initialized", "emergency_power_derating_activated": "Emergency power derating activated", "error_during_logging_data_recording": "Error during recording of logging data", "error_during_update_process": "Error occurred during update process", "fan_1_error": "Fan 1 error", "fan_2_error": "Fan 2 error", "file_could_not_be_opened": "File could not be opened", "fixed_voltage_mode_out_of_range": "Fixed voltage mode has been selected instead of MPP voltage mode and the fixed voltage has been set to too low or too high a value", "functional_incompatibility_between_pc_boards": "Functional incompatibility (one or more PC boards in the inverter are not compatible with each other, e.g. after a PC board has been replaced)", "grid_frequency_exceeded_limit_reconnecting": "The grid frequency has exceeded a limit value when reconnecting", "grid_voltage_dependent_power_reduction_active": "Grid voltage-dependent power reduction (GVDPR) is active", "guard_cannot_be_found": "Guard cannot be found", "hardware_id_problem": "Hardware ID problem", "hid_range_error": "HID range error", "initialisation_error_file_system_error_on_usb": "Initialization error in file system on USB flash drive", "initialisation_error_usb_flash_drive_not_supported": "Initialization error – USB flash drive is not supported", "initialisation_error_usb_stick_over_current": "Initialization error – Overcurrent on USB stick", "insulation_error_on_solar_panels": "Insulation error on the solar panels", "insulation_fault": "Insulation fault", "insulation_measurement_triggered": "Insulation measurement triggered", "intermediate_circuit_voltage_too_high": "Intermediate circuit voltage too high", "intermediate_circuit_voltage_too_low_or_asymmetric": "Intermediate circuit voltage too low or asymmetric", "internal_dsp_malfunction": "Internal DSP malfunction", "internal_hardware_error": "Internal hardware error", "internal_processor_status": "Warning about the internal processor status. See status code for more information", "interrupt_check_fail": "Interrupt Check fail", "invalid_device_type": "Invalid device type", "inverter_required_setup_values_not_received": "Inverter required setup values could not be received", "inverter_settings_changed_restart_required": "Inverter settings have been changed, inverter restart required", "log_file_cannot_be_saved": "Log file cannot be saved (e.g. USB flash drive is write-protected or full)", "low_pv_voltage_dc_input_voltage_too_low": "Low PV voltage - DC input voltage too low for feeding energy into the grid", "mains_voltage_dependent_power_reduction": "Mains voltage-dependent power reduction", "memory_error_detected": "Memory error detected", "neutral_conductor_not_connected": "Neutral conductor not connected", "no_communication_between_power_stage_and_control_system": "No communication possible between power stage set and control system", "no_communication_with_filter": "No communication with filter possible", "no_communication_with_hybrid_manager": "No communication possible with the Hybrid manager", "no_communication_with_power_stage_set": "No communication with the power stage set possible", "no_communication_with_storage_unit": "No communication possible with the storage unit", "no_energy_fed_by_mppt1_past_24_hours": "No energy fed into the grid by MPPT1 in the past 24 hours", "no_energy_fed_into_grid_past_24_hours": "No energy fed into the grid in the past 24 hours", "no_error": "No error", "no_power_fed_in_despite_closed_relay": "No power being fed in, despite closed relay", "no_usb_flash_drive_connected": "No USB flash drive connected", "overcurrent_ac": "Overcurrent (AC)", "overcurrent_dc": "Overcurrent (DC)", "overtemperature_in_connection_area": "Overtemperature in the connection area", "pmc_power_stage_set_not_available": "PMC power stage set not available", "polarity_of_dc_strings_reversed": "Polarity of DC strings reversed", "possible_hardware_fault": "Possible hardware fault", "power_derating_due_to_high_temperature": "Power derating caused by too high a temperature", "power_stage_set_problem": "Power stage set problem", "pv_output_too_low_for_feeding_energy_into_the_grid": "PV output too low for feeding energy into the grid", "rcmu_error": "RCMU error", "real_time_clock_communication_error": "Real Time Clock module communication error", "real_time_clock_hardware_error": "Hardware error in the Real Time Clock module", "real_time_clock_in_emergency_mode": "Internal error: Real Time Clock module is in emergency mode", "safety_cut_out_triggered": "Safety cut-out via option card or RECERBO has triggered", "software_problem": "Software problem", "software_update_invalid_country_setup": "Software update group 0 (invalid country setup)", "stand_alone_operation_detected": "Stand-alone operation detected", "storage_unit_not_available": "Storage unit not available", "time_lost": "Time lost", "too_little_dc_power_for_feed_in_operation": "Too little DC power for feed-in operation", "unique_id_conflict": "Unique ID conflict", "update_file_corrupt": "Update file corrupt", "update_file_does_not_match_device": "Update file does not match the device, update file too old", "update_file_not_recognised_or_missing": "Update file not recognized or not present", "wired_shut_down_triggered": "Wired shutdown triggered", "write_or_read_error_occurred": "Write or read error occurred" } }, "frequency_phase_average": { "name": "Frequency phase average" }, "inverter_state": { "name": "Inverter state" }, "led_color": { "name": "LED color" }, "led_state": { "name": "LED state" }, "meter_location": { "name": "Meter location" }, "meter_location_description": { "name": "Meter location description", "state": { "consumption_path": "Consumption path", "external_battery": "External battery", "external_generator": "External generator", "feed_in": "Grid interconnection point", "subload": "Subload" } }, "meter_mode": { "name": "Meter mode" }, "power_ac": { "name": "AC power" }, "power_apparent_phase_1": { "name": "Apparent power phase 1" }, "power_apparent_phase_2": { "name": "Apparent power phase 2" }, "power_apparent_phase_3": { "name": "Apparent power phase 3" }, "power_battery": { "name": "Power battery" }, "power_battery_charge": { "name": "Power battery charge" }, "power_battery_discharge": { "name": "Power battery discharge" }, "power_factor_phase_1": { "name": "Power factor phase 1" }, "power_factor_phase_2": { "name": "Power factor phase 2" }, "power_factor_phase_3": { "name": "Power factor phase 3" }, "power_grid": { "name": "Power grid" }, "power_grid_export": { "name": "Power grid export" }, "power_grid_import": { "name": "Power grid import" }, "power_load": { "name": "Power load" }, "power_load_consumed": { "name": "Power load consumed" }, "power_load_generated": { "name": "Power load generated" }, "power_photovoltaics": { "name": "Power photovoltaics" }, "power_reactive": { "name": "Reactive power" }, "power_reactive_phase_1": { "name": "Reactive power phase 1" }, "power_reactive_phase_2": { "name": "Reactive power phase 2" }, "power_reactive_phase_3": { "name": "Reactive power phase 3" }, "power_real": { "name": "Real power" }, "power_real_phase_1": { "name": "Real power phase 1" }, "power_real_phase_2": { "name": "Real power phase 2" }, "power_real_phase_3": { "name": "Real power phase 3" }, "relative_autonomy": { "name": "Relative autonomy" }, "relative_self_consumption": { "name": "Relative self-consumption" }, "state_code": { "name": "State code" }, "state_message": { "name": "State message", "state": { "boost_mode": "Boost mode", "critical_fault": "Critical fault", "fault": "[%key:common::state::fault%]", "keep_minimum_temperature": "Keep minimum temperature", "legionella_protection": "Legionella protection", "up_and_running": "Up and running" } }, "state_of_charge": { "name": "State of charge" }, "status_code": { "name": "Status code" }, "status_message": { "name": "Status message", "state": { "bootloading": "Bootloading", "error": "[%key:common::state::error%]", "idle": "[%key:common::state::idle%]", "ready": "Ready", "running": "Running", "sleeping": "Sleeping", "standby": "[%key:common::state::standby%]", "startup": "Startup" } }, "temperature_cell": { "name": "[%key:component::sensor::entity_component::temperature::name%]" }, "voltage_ac": { "name": "AC voltage" }, "voltage_ac_phase_1": { "name": "Voltage phase 1" }, "voltage_ac_phase_2": { "name": "Voltage phase 2" }, "voltage_ac_phase_3": { "name": "Voltage phase 3" }, "voltage_ac_phase_to_phase_12": { "name": "Voltage phase 1-2" }, "voltage_ac_phase_to_phase_23": { "name": "Voltage phase 2-3" }, "voltage_ac_phase_to_phase_31": { "name": "Voltage phase 3-1" }, "voltage_dc": { "name": "DC voltage" }, "voltage_dc_maximum_cell": { "name": "Maximum cell voltage" }, "voltage_dc_minimum_cell": { "name": "Minimum cell voltage" }, "voltage_dc_mppt_no": { "name": "DC voltage {mppt_no}" } } }, "exceptions": { "entry_cannot_connect": { "message": "Failed to connect to Fronius device at {host}: {fronius_error}" }, "update_failed": { "message": "An error occurred while attempting to fetch data: {fronius_error}" } } }